Acid dissociation constant

Both must be present!

A buffer solution has the ability to resist changes in pH upon the addition of small amounts of either acid or base. Consider an equal molar mixture of CH3COOH and CH3COONa

CH3COOH (aq)

H+ (aq) + CH3COO- (aq)

Adding more acid creates a shift left IF enough acetate

ions are present

16.3

Which of the following are buffer systems?

(a) KF/HF

(b) KCl/HCl,

c) Na2CO3/NaHCO3

(a) KF is a weak acid and F- is its conjugate base

buffer solution

(b) HCl is a strong acid

not a buffer solution

(c) CO32- is a weak base and HCO3- is it conjugate acid

buffer solution

16.3

Buffers

• are solutions that have the property of resisting changes in pH when acids or bases are added to them

• this property results from the presence of a buffer pair which consists of either:

 weak acid and some salt of a weak acid/its conjugate base

Ex. acetic acid and sodium acetate  weak base and some salt of a weak base/its conjugate acid

Ex. Ammonium hydroxide and ammonium chloride

BUFFERS IN BIOLOGIC SYSTEMS

 Blood is maintained at a pH about 7.4 by the so-called primary buffers in the plasma and the secondary buffers in the

The Term Paper on Aqueous Solution Acid Base Conjugate

CHEMISTRY 122 CHAPTER 17 NOTES CHAPTER 17 EXERCISES (THESE ARE NOT TO BE TURNED IN, BUT QUIZ QUESTIONS WILL BE TAKEN FROM THESE EXERCISES SO IT IS TO YOUR BENEFIT TO DO THEM): 2, 3, 5, 6, 8, 10, 13, 15, 16, 18, 19, 21, 23, 25, 27, 28, 29, 31, 33, 37, 39, 41, 43, 44, 47, 48, 50, 53, 57, 60, 63, 64, 67, 70, 71, 73, 75, 78, 80, 87, 95, 102, 112 Chemistry of Acids and BasesSvante Arrhenius (1884) ...

erythrocytes.

 The plasma contains carbonic acid/bicarbonate and acid/alkali sodium salts of phosphoric acid as buffers

 Plasma proteins, which behaves as acids in blood can combine with bases and so act as buffers.

 In the erythrocytes, the two buffer systems consist of

hemoglobin/oxyhemoglobin and acid/alkali potassium salts of

phosphoric acid.

Pharmaceutical Applications

(1) Preparation of such dosage forms as injections and ophthalmic solutions which are placed directly into pH-sensitive body fluids

(2) Manufacture of formulations in which the pH must be maintained at a relatively constant level to ensure maximum product stability

(3) Pharmaceutical tests and assays requiring adjustment to or maintenance of a specificp H for analytic purposes Henderson-Hasselbalch Equation

 aka: Buffer Equation

 has two forms:

 For weak acid:

pH = pKa + log [salt]

[acid]

Ex. What is the pH of a buffer solution prepared with 0.05 M sodium borate and 0.005 M boric acid?(Ka of boric acid = 5.8×10-10) pH = pKa + log [salt]

[acid]

= 9.24 + log 0.05

0.005

= 9.24 + log 10

= 9.24 + 1

= 10.24, answer

 For weak bases:

pH = pKw – pKb + log [base]

[salt]

Ex. What is the pH of a buffer solution with 0.05 M

ammonia and 0.05 M ammonium chloride? The Kb

value of ammonia is 1.80 x 10-5 at 25 o C.

Kb = 1.80 x 10-5

pKb = – log Kb

= – (1.80 x 10-5)

= – (-4.74)

pH = 14 – 4.74 + 0.05

0.05

= 9.26 + log 1

= 9.26

To calculate the Molar Ratio of Salt/Acid for a Buffer

System of Desired pH

Example:

What molar ratio of salt/acid is required to prepare a sodium acetate-acetic acid buffer solution with a pH of 5.76? The pKa value of acetic acid is 4.76 at 25o C.

pH = pKa + log [salt]

[acid]

log [salt] = pH – pKa

[acid]

= 5.76 – 4.76 = 1

Antilog of 1 = 10

Ratio = 10/1 or 10:1, answer

The Essay on Expanding The Year Field To Four Company Solution Systems

Using a 100-year logic window The logic window approach allows the system to determine the century or decade of a given year by comparing the value of the two digit field against an application window. One version of this technique allows for a sliding window, in which one changes the boundaries of the window and the user is notified when the window is about to advance. This technique does require ...

• Percentage of the ionized (salt) species in the

buffer system is taken as:

% ionized (salt) = ___salt__ x 100

salt + acid

Ex. The molar ratio of salt to acid is 10:1. What

is the percentage of the ionized species in the

buffer system?

% ionized (salt) = ___10__ x 100

10 + 1

= 90.91%

• Percentage of the unionized (acid) species in the

buffer system is taken as:

% unionized (acid) = ___acid__ x 100

acid + salt

Ex. The molar ratio of salt to acid is 10:1. What is

the percentage of the unionized species in the

buffer system?

% unionized (ACID) = ___1__ x 100

1 + 10

= 9.09%

Buffer Capacity

 aka:

–buffer action

– buffer efficiency

– buffer index

– buffer value

 is the ability of a buffer solution to resist changes in pH upon addition of an acid/alkali

 Approximate formula

β = ∆B

∆pH

Exact Formula/Koppel-Spiro-Van Slyke’s Equation

β = 2.3C _Ka [H3O+]__

(Ka + [H3O+])2

Maximum Buffer Capacity

 occurs when pH = pKa

βmax = 0.576 C

in which C is the total buffer concentration Ex. What is the maximum buffer capacity of an acetate buffer with a total concentration of 0.020 mole per liter?

βmax = 0.576 x 0.020

= 0.01152 or 0.012

ASSIGNMENT

1. What is the pH of a solution containing

0.30 M HCOOH and 0.52 M HCOOK?

2. What molar ratio of salt/acid

3. Percentage of the unionized (acid) species in the buffer system

4. Percentage of the ionized (SALT) species

in the buffer system

QUANTITY OF COMPONENTS IN A BUFFER SOLUTIONS TO YIELD A

SPECIFIC VOLUME

Ex. The molar ratio of sodium acetate to acetic acid

in a buffer solution with a pH of 5.76 is 10:1.

Assuming the total buffer concentration is 2.2

x10-2 mol/L, how many grams of sodium acetate

(m.w. 82) and how many grams acetic acid

(m.w.60) should be used in preparing a liter of

The Essay on Strong Acid Solution Khp Point

Introduction The two types of aqueous solutions in chemistry that are being experimented with are called acids and bases. A strong acid solution is one that consists of a solution that is less than seven ph factor. The basic solution is one that consists of greater than seven on the ph scale. In this experiment standardization of a chemical reaction is used to determine the concentration of the ...

the solution?

SOLUTION:

m.f. sodium acetate = 10/1+10 or 10/11

m.f. Hac

= 1/1+10 or 1/11

Total buffer conc. = 2.2 x10-2 mol/L

Conc of NaAc = 10/11 x (2.2 x 10-2)

= 2 x 10-2 mol/L

Conc of HAc = 1/11 x (2.2 x 10-2)

= 0.2 x 10-2 mol/L

2 x 10-2 mol/L or 0.02 x 82 = 1.64 g of NaAc per liter of solution. 0.2 x 10-2 mol/L or 0.002 x 60 = 0.120 g of HAc per liter of solution

Change in pH with addition of Acid or base

Ex. Calculate the change in pH after adding 0.04

mol of NaOH to a liter of a buffer solution

containing 0.2 M conc. Of NaAC and Hac. The

pKa value of acetic acid is 4.76 at 250C.

pH = pka + log salt/acid

= 4.76 + log 0.2 M/0.2

= 4.76 + log of 1

= 4.76 + 0

= 4.76 (before adding NaOH)

pH = pka + log salt + base/acid – base

pH = pka + log 0.2 + 0.04/0.2 – 0.04

= pka + log 0.24/0.16

= 4.76 + 0.1761 = 4.9361 or 4.94

= 4.94 – 4.76 = 0.18 unit (after adding

NaOH)

ASSIGNMENT

1. What molar ratio of salt to acid would be required to prepare a buffer solution with a pH of 4.5? The pKa value of the acid is 4.05 at 25o C.

2. What is the change in pH on adding 0.02 mol of sodium

hydroxide to a liter of a buffer solution containing 0.5 M of sodium acetate and 0.5 M acetic acid? The pka value of acetic acid is 4.76 at 25 degrees centigrade.

3. The molar ratio of salt to acid needed to prepare a sodium acetate-acetic acid buffer solution is 1:1. Assuming that the total buffer concentration is 0.1 mol/L, how many grams of

sodium acetate should be used in preparing 2 liters of the

solution?

4. What is the change in pH with the addition of 0.01 mol HCl to a liter of buffer solution containing 0.05 M of ammonia and 0.05 M of ammonium chloride? The kb of ammonia is 1.80 x 10-5 at

25 degrees centigrade.